Datasheet AD8004 (Analog Devices) - 7

ManufacturerAnalog Devices
Description3000 V/µS, 35mW Current Feedback Quad Amplifier
Pages / Page17 / 7 — AD8004. 1V rms. –12. –15. OUTPUT LEVEL – dBV –12. OUTPUT LEVEL – dBV –18. …
RevisionD
File Format / SizePDF / 454 Kb
Document LanguageEnglish

AD8004. 1V rms. –12. –15. OUTPUT LEVEL – dBV –12. OUTPUT LEVEL – dBV –18. G = +2. VS =. –21. VS = +5V. RF = 604. –18. –24. –27. 100. 500

AD8004 1V rms –12 –15 OUTPUT LEVEL – dBV –12 OUTPUT LEVEL – dBV –18 G = +2 VS = –21 VS = +5V RF = 604 –18 –24 –27 100 500

Text Version of Document

AD8004 9 3 1V rms 6 0 3 –3 1V rms 0 –6 –3 –9 –6 –12 –9 –15 OUTPUT LEVEL – dBV –12 OUTPUT LEVEL – dBV –18 G = +2 G = +2 –15 VS = 5V –21 VS = +5V RF = 604 RF = 604 –18 –24 –21 –27 1 10 40 100 500 1 10 40 100 500 FREQUENCY – MHz FREQUENCY – MHz
TPC 7. Large Signal Frequency Response; V TPC 10. Large Signal Frequency Response; V S = ±5.0 V, S = +5.0 V, G = +2, R G = +2, R F = 604 Ω F = 604 Ω
–40 –40 G = +2 3RD G = +2 V R O = 2V p-p 2ND L = 150 –50 VO = 2V p-p –50 RF = 698 R R 3RD L = 150 F = 698 RL = 150 2ND 3RD –60 R –60 R L = 150 L = 1k –70 –70 DISTORTION – dBc –80 DISTORTION – dBc –80 2ND 2ND RL = 1k –90 R –90 L = 1k 3RD RL = 1k –100 –100 1 10 20 1 10 20 FREQUENCY – MHz FREQUENCY – MHz
TPC 8. Distortion vs. Frequency; V TPC 11. Distortion vs. Frequency; V S = ±5 V S = +5 V
1 –10 604 5VS 0 –15 604 V 50 G = +2 IN 154 V –1 V –20 OUT IN = 50mV rms RL = 100 5V 57.6 154 S –2 –25 +5V R S F = 1.10k +5V R PACKAGE S 0.1 –3 –30 0 –4 –35 –0.1 –5 –40 +5V CMRR – dB S 5VS –0.2 –6 –45 +5VS –0.3 –7 –50 –8 –0.4 –55 NORMALIZED FREQUENCY RESPONSE – dB 5VS NORMALIZED FLATNESS – dB –9 –0.5 –60 1 10 40 100 500 0.03 0.1 1 10 100 500 FREQUENCY – MHz FREQUENCY – MHz
TPC 9. Frequency Response and Flatness, G = +2 TPC 12. CMRR vs. Frequency; VS = ±5 V or +5 V, VIN = 200 mV rms, Other Sides Are Equal, RTO –6– REV. D Document Outline FEATURES APPLICATIONS GENERAL DESCRIPTION CONNECTION DIAGRAM SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS ORDERING GUIDE MAXIMUM POWER DISSIPATION Typical Performance Characteristics THEORY OF OPERATION DC AND AC CHARACTERISTICS DRIVING CAPACITIVE LOADS OPTIMIZING FLATNESS DRIVING A SINGLE-SUPPLY A/D CONVERTER LAYOUT CONSIDERATIONS OUTLINE DIMENSIONS Revision History